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Angewandte Chemie - International Edition

Volumn 46, Issue 21, 2007, Pages 3892-3895

Encoding molecular-wire formation within nanoscale sockets

(6) Tang, Jinyao b Wang, Yiliang b Klare, Jennifer E b Tulevski, George S b Wind, Shalom J a Nuckolls, Colin b

a Columbia University ^* (United States)

b Och Spine at New York Presbyterian Hospitals (United States)

Author keywords

Molecular electronics; Monolayers; Nanotechnology; Self assembly; Transition metals

Indexed keywords

COORDINATION REACTIONS; ELECTRIC CONNECTORS; ELECTRODES; MONOLAYERS; SELF ASSEMBLY; TRANSITION METALS; WIRE;

BIFUNCTIONAL ARENE; COORDINATION CHEMISTRY; EDTA; MOLECULAR-SCALE WIRES;

MOLECULAR ELECTRONICS;

EID: 34250742576 PISSN: 14337851 EISSN: None Source Type: Journal
DOI: 10.1002/anie.200604398 Document Type: Article

Times cited : (68)

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- The units used in this study are derived from the fundamental quantum of conductance. The values obtained for these molecular wires are consistent with values for other similar molecular wires: see reference [19].
- The units used in this study are derived from the fundamental quantum of conductance. The values obtained for these molecular wires are consistent with values for other similar molecular wires: see reference [19].

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